DE2453109B2 - STEEL ALLOY FOR SHELL-PROOF OBJECTS - Google Patents

Description

% QM up to 0.15% carbon,
"? Ö;! 0 to 2.00% manganese,
% 10 to 2, QOVo silicon,
42.00 to 21.00% chromium,
£ 00 to 15.00% nickel,
40.10 to 530% copper,
Q up to £ 00% aluminum, '

0 to 3 ^{liters of} 30% molybdenum, C.

0 to 030% niobium / tantalum, ■ - ■■ ''

0 to 025% nitrogen,
Remainder iron, r

preferably in the solution and precipitation annealed condition, as a material for the production of against bulletproof objects.

It is understandable that all of these steel alloys must be brought to high strength in order to be protected against fire. This is particularly more "mission as helmet material an essential ν". "Etzune When manganese steel, however, the JSSSSw • ^ ^ a vm.we.entlKtoEinfluB" wfdeVstand ₃ is ay the penetration of bullets

For the production of objects that must be sufficiently resistant to fire from handguns, it is known manganese hard steels with about 1.15 to 130% carbon, 12.00 to 13.00% manganese and a maximum of 0.60% chrome, the remainder being iron, to use. In addition, kömRiti asch neeh quenched and tempered steels with 030 to 0.40% carbon, OJO up to 030% chromium and 3.00 to 4.00% nickel "as well as r <" olybdenum-alloyed steels with approx. 035% carbon, 1.40 to 1.60% chromium , Nickel 1.45 to 1.65% and approx. 020% molybdenum. Remainder iron in question. The latter steels are thereby mm ² brought to Vergütefestigkeiten of 125 his 135 kp /

In addition to the aforementioned steels, which are mainly used for components that are against the The impact of projectiles from handguns must be puncture-proof and shatterproof, as <fic5 For example, for door panels, Rol'.balken and cash desk counters are also a row of 4s of steel 'alloys, which are used as material for helmets v / erdea Such steel alloys must still have sufficient toughness with high strength and, moreover, em have good deep-drawing properties. It is essential that this is the case the very high strength after a tempering treatment.

The entire .u. "-. . Objects as

known steel alloys used, but they have in common that they are very difficult to work Banks, etc. are of essential importance, namely during processing, and this is necessary to a large extent in the case of objects, for example, that have been mentioned, considerable difficulties eSemen Manganese Steels Oberfl **. «, result in a decorative use in architecture only if an additional bonding with decorative sheets takes place.

About the difficult processing and the one for them Architecture inadmissible surface appearance still comes for the common steels used in addition, that these are to be regarded neither as rustproof nor as corrosion-resistant.

The subject matter of the invention is the use of stainless, precipitation hardening steels

r.; cn Vc

rerdusss ™ '?' * ¹ "·

rÜr UIC rügcnülliiivn. ■>. _π ·, ..-- ..

steels with 025 to 1.00% carbon, up to 2.00% Manganese, up to 230% silicon, 030 to 230% chromium and 5s optionally, from 130 to 330% to 030% vanadium, have been found to be suitable. These steels can occasionally additives of 1.25 to 130% molybdenum are added

be.

For the production of steel helmets and similarly claimed objects, a steel is also recommended that consists of 0.30 to 030% carbon, 030 to 1% manganese. 120 to 2.00% silicon, 020 to 2.00% chromium, 030 to 030% molybdenum, 030 to 130% nickel, 0.05 to 030% vanadium, the remainder being iron. Even at 6; Achieving high strength values, for example 190 to 210 kp / mm ^{2, is} regarded as essential for this steel

0.0''s 0.15% carbon.

0.10 to 2.00% manganese,

0.10 to 2.00% silicon,
12.00 to 21.00% Chro.u,

2.00 to 15.00% nickel

0.10 to 530% copper,

0 to 2.00% aluminum,

0 to 330% molybdenum,

G up to 030% niobium / tantalum.

0 uis 0.25% nitrogen,
Remainder iron,

preferably mold annealed and precipitation annealed State, as a material for the He-position of against Small arms bulletproof objects.

It has proven to be advantageous to subject the steels to be used according to the invention to a solution heat treatment and, after precipitation annealing, to bring them ^{to approx. 100 to 125 kp / mm 2.} The solution annealing takes place at approx. 1030 to 105 ° C. with subsequent cooling depending on the cross section in water, oil or air.The hardening is then carried out by precipitation annealing at 610 to 630 ^° C. with holding times of 3 to 5 hours and subsequent air cooling

Within the range of stainless, precipitation-hardening steels to be used according to the invention, those with a maximum of 0.05% carbon, 030 to 0.70% silicon, 0.50 to 1.10% manganese, 1430 to 17.00% chromium, 3 0.00 to 5.00% nickel, 3.00 to 430% copper, 0.15 to 0.45% niobium and a maximum of 0.05% nitrogen, remainder iron, have proven to be beneficial. These steels are expediently brought to strengths of approx. 95 to 110 kp / mm ² in the precipitation-hardened state and

result in elongation at break values of approx. 15 to 25%

"As attempts at fire have shown, it turns out

resistant steels according to the invention as against the bombardment by handguns, where 5 mm sheets already having a thickness of about 3 to withstand the heaviest calibers and Y ei 4 mm sheet was strong even if the required BeschuBsicherheit opposite Flinteniaufgeschossen.

When the steels are used according to the invention as a material for the production of bulletproof Objects can be sufficiently machined so that door panels, wall elements, Shutters, etc. can be manufactured without undue effort. Besides that, the steels are good weldable and to be regarded as rustproof and corrosion-resistant.

When used in architecture, in particular as decorative elements, the manufactured objects can be produced in the stained, sanded, polished or relief-stained condition. There are those corresponding surface finishes in the quality desired in each case easily achievable.

Claims (1)

it. - ^ '' ■ " f. * - ■■> ■ IO ^; Claim ^; ,, ΐ, ^ -! Use of rustproof, precipitation-hardening ones Steels with